Chapter 22 LIBYA:PETROLEUM POTENTIAL of THE

Chapter 22 LIBYA:PETROLEUM POTENTIAL of THE

Rusk, D. C., 2001, Libya: Petroleum potential of the underexplored basin centers—A twenty-first-century challenge, in M. W. Downey, J. C. Threet, and W.A. Morgan, eds., Petroleum provinces of the twenty-first century: AAPG Memoir 74, p. 429–452. Chapter 22 LIBYA:PETROLEUM POTENTIAL OF THE UNDEREXPLORED BASIN CENTERS—A TWENTY-FIRST-CENTURY CHALLENGE Donald C. Rusk Consultant, Houston, Texas, U.S.A. ABSTRACT Recoverable reserves in approximately 320 fields in Libya’s Sirt, Ghadamis, Murzuq, and Tripolitania Basins exceed 50 billion barrels of oil and 40 trillion cubic feet of gas. Approximately 80% of these reserves were discovered prior to 1970. Since then, there has been a less active and more conservative exploration effort. Complex, subtle and, in partic- ular, deep plays were rarely pursued during the 1970s and 1980s because of definitive imaging technologies, limited knowledge of the petroleum systems, high costs, and risk adversity. Consequently, extensive undiscovered resources remain in Libya. These resources could be accessed if geologic and geophysical knowledge, innovation, and advanced technologies were used effectively. Three-dimensional seismic acquisition will be required to some degree for reliable trap definition and stratigraphic control. Predictably, most of the undiscovered resources will be found in the vast, under- explored deep areas of the producing basins. Six areas are exceptional in this regard: the south Ajdabiya trough, the central Maradah graben, and the south Zallah trough–Tumayam trough in the Sirt Basin, and the central Ghadamis Basin, the central Murzuq Basin, and the offshore eastern Tripolitania Basin in the west. These highly prospective basin sectors encompass a total area of nearly 150,000 km2, with an average well density for wells ex- ceeding 12,000 ft of 1 well/5000 km2. INTRODUCTION The exploration effort in Libya, which began in 1957, mately 2 billion bbl. The exploration effort in the offshore has been a phenomenal success. In the Sirt Basin (Figure Tripolitania Basin has been rewarding as well. Fourteen 1), the drilling of 1600 new-field wildcats resulted in 250 new oil and gas-condensate fields have been discovered discoveries with recoverable reserves of 45 billion barrels as a result of the drilling of about 50 wildcats. Reserves (bbl) of oil and 33 trillion cubic feet (tcf) of gas. These there are an estimated 2 billion bbl of oil and 8 tcf of gas. figures include 18 of the 21 giant fields in Libya, which These estimates refer to activities through 1998 and in- hold reserves of 37 billion bbl of oil. In the Ghadamis clude some fields categorized as marginal. Basin (including the Gheriat and Atchan Subbasins), Despite this great exploration effort, the four pro- approximately 260 exploration wells yielded 35 oil-field ducing basins are in the emerging stage of exploration discoveries with an estimated 3 billion bbl of recoverable maturity. Two aspects in particular are indicative of vast oil. The 62 wildcats drilled in the Murzuq Basin found 11 undiscovered resources in Libya and the exploration op- oil fields, including two giants, with reserves of approxi- portunities to access those resources: (1) numerous poten- 429 430 / Rusk tial areas, proximal to oil-field trends where well density petroleum systems, and ineffective use of sequence- is extremely low; and (2) extensive areas, mostly basin stratigraphic concepts. centers, where valid deep objectives were reached by only Today, in view of state-of-the-art technologies avail- a few wells. able for a wide range of petroleum-exploration needs and It is noteworthy that 17 of the 21 giant oil fields and the relatively low cost to apply them, pursuit of deep 80% of the total recoverable oil and gas were discovered plays in Libya should be a top priority. To address this prior to 1970. Since then, a less active and more conser- objective, I have selected for evaluation six large underex- vative exploration effort has taken place. Apparently, plored areas with exceptional potential and, for the most rewards were adequate from the results of field exten- part, with deep primary targets (Figure 1). However, sions and the drilling of proven, relatively shallow plays. many other promising areas are within and near the pro- Complex and subtle plays (for example, low-relief struc- ducing basins of Libya. tural or structural-stratigraphic traps and deep plays) Three of the subject areas are in the Sirt Basin: the were rarely pursued prior to the 1990s. south part of the Ajdabiya trough, the Maradah graben, Probably the main reasons for the absence of an and the south part of the Zallah trough, including the aggressive approach to exploration in the 1970–1990 adjoining Tumayam trough. The other study areas are in period were lack of definitive imaging technologies (seis- western Libya: the central part of the Ghadamis Basin, mic acquisition and processing and other computer- the central part of the Murzuq Basin, and the extreme related geoscience technology), limited understanding of eastern part of the Tripolitania Basin. Figure 1. Generalized tectonic map of Libya showing major structural features. Also shown are six underexplored central basin or trough areas, which are the subject areas of this study. Libya: Petroleum Potential of the Underexplored Basin Centers / 431 TECTONIC SETTING Nubian deposition was controlled by surface relief and, to some degree, by faulting. Paleozoic In the Albian or early Cenomanian, extensional and Deposition of mostly continental siliciclastics during probably transtensional faulting, followed by uplift and the Cambrian and marginally marine to marine siliciclas- erosion, deformed the Sirt-Tibesti arch. This activity (the tics during the Ordovician and Silurian continued essen- Sirt event) was a prelude to subsequent collapse of the tially without interruption from Morocco to the Middle arch (El-Alami, 1996b; Gras, 1996; Hallett and El- East. Uplift and erosion during the Late Silurian Cale- Ghoul, 1996; Koscec and Gherryo, 1996). The structural donian orogeny initially defined the limits of the Paleo- alignment created, which is most evident in the south zoic basins of Libya. The east-west-trending Qarqaf arch and southeast, was for the most part east-west, east-south- separated the Ghadamis and Murzuq Basins; the north- east–west-northwest, and east-northeast–west-southwest. south-trending Sirt-Tibesti arch separated the Murzuq Consequently, the subcrop at the Sirt unconformity is a and Kufrah Basins and, generally, the Ghadamis Basin mosaic of Jurassic to Lower Cretaceous siliciclastics in from the eastern Cyrenaica–Western Desert Basin grabens and half grabens, which are in depositional or (Klitzsch, 1971; Bellini and Massa, 1980). fault contact with basement or Cambrian-Ordovician After the dominantly marine siliciclastic deposition rocks on structural highs. Evidence of this fabric is exhib- during the Devonian and the shallow-marine to conti- ited in the Faregh, Masrab, Magid, Messlah, Jalu, and nental deposition in the Carboniferous, widespread uplift other areas in the southeast sector and is suggested by and severe erosion during the Hercynian orogeny, partic- fault trends in the southern parts of the Zaltan and Bayda ularly along the Sirt-Tibesti arch, Qarqaf arch, and Jefara platforms. uplift, further accentuated the Paleozoic basin margins. The main Sirt Basin rift phase, which established the distinctive configuration of the basin, began in the Ceno- Mesozoic manian with the collapse of the Sirt-Tibesti arch. Basi- A very thick sequence of continental sediments of Tri- cally, five major grabens formed (Hun, Zallah, Maradah, assic to Early Cretaceous age occupies the central part of Ajdabiya, and Hameimat), separated by four major plat- Murzuq Basin. Along the Murzuq Basin margins and the forms (Waddan, Zahrah-Bayda, Zaltan, and Amal-Jalu) nearby Qarqaf and Tibesti arches, Paleozoic and base- (Figure 2). The orientation of these structural features ment rocks are exposed. Gradual northward sag of the was generally north-northwest–south-southeast, a fabric Ghadamis Basin throughout the Mesozoic resulted in which persisted throughout the recurrent episodes of continental and marine deposition, with a thickness of faulting during the Late Cretaceous and Paleocene. Dur- less than 1000 ft in the south and more than 6000 ft in ing this period, a great thickness of shale and subordinate the north. From the Late Permian to the Cretaceous, the carbonates and evaporites accumulated in the troughs, extreme northern margin of the Ghadamis Basin under- while a considerably reduced thickness of dominantly went severe northward tilt, an effect of Tethyan subsi- shallow-marine carbonates was deposited on the plat- dence. This resulted in a more pronounced northward forms (Barr and Weegar, 1972; Gumati and Kanes, 1985; increase in sedimentary thickness, with increased marine Baird et al, 1996). influence. This Mesozoic depositional episode continued off- Tertiary shore in the Tripolitania Basin, where the thickness of In the northern sector of the Ghadamis Basin, only a post-Permian to Upper Cretaceous marine siliciclastics thin section of Tertiary shallow-marine sediments is pres- and carbonates may exceed 12,000 ft. Tectonic activity in ent, and it thickens considerably northward toward the the Tripolitania Basin and surrounding offshore areas dur- Tripolitania Basin and eastward toward the Sirt Basin. In ing the Mesozoic was dominated by east-west-oriented the east on the Cyrenaican platform, deposition of thick, dextral transtension related to movement of the African dominantly carbonate strata occurred. Plate relative to the Eurasian Plate (Van Houten, 1980; In the Sirt Basin, from the middle Paleocene to the Anketell, 1996). early Eocene, rift tectonics had less control on sedimenta- In the general area of the future Sirt Basin, the broad tion, and thickness variation from trough to platform was Sirt-Tibesti arch, with basement and Cambrian-Ordovi- less pronounced. From the early Eocene to the Pliocene, cian rocks exposed at the Hercynian surface, remained interior sag dynamics persisted, with a gradual eastward positive until the Late Jurassic.

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